Copper gold powder (also known as gold powder) is made from copper-zinc alloy as raw material through special mechanical processing and surface chemical treatment, with a scaly structure, capable of floating in the binder, presenting a golden luster, and having the nature of a pigment.Metal pigment.

Classification

200-mesh copper gold powder: Flying gold, fabric printing gold, suitable for rapid printing. Characteristics: High luminosity, strong metallic feel.

400-mesh copper gold powder: Flying gold, gold paint, fabric printing gold, also suitable for screen printing, wallpaper, coatings and incorporation into plastics. Characteristics: High luminosity, strong metallic feel.

600-mesh copper gold powder: Flying gold, gold paint, fabric printing gold, screen printing, handicraft coating, etc. Characteristics: High luminosity, strong metallic feel.

800-mesh copper gold powder: Used for fabric printing, spray lacquer, plastic, wallpaper "pointed tip" coatings for both water-based and non-water-based applications.

1000-mesh copper gold powder: Used for manufacturing spray lacquer with high brightness, wooden materials, screen printing ink and rubber relief plate ink. Characteristics: Fine, high brightness.

1200-mesh copper gold powder: Suitable for printing ink, paint, plastic, screen printing ink, etc. Characteristics: High brightness.

1500-mesh copper gold powder: Excellent performance, high gloss, good stability, can be used for manufacturing canned offset printing ink.

Application fields

Copper gold powder is mainly used in handicrafts, paints, inks, coatings, printing and other industries

Purity

The commonly used determination method for high-content copper is still the ancient iodometry method, which has a large amount of potassium iodide used, high cost and time-consuming. The newly developed photometric method is not suitable for the determination of high-content copper due to the problem of copper chromogenic agents. Therefore, it is necessary to study and develop new chromogenic agents. The author of this article tried to control the pH value with acetate-sodium acetate buffer solution, used disodium ethylenediaminetetraacetate (EDTA) as the chromogenic agent to determine the high-content copper in copper gold powder, and at the same time used EDTA to mask elements such as zinc and aluminum to eliminate their interference. Cu^2+ forms a 1:1 molar ratio blue complex with EDTA. The maximum absorption wavelength of this complex is 2 = 730nm, and the molar absorptivity is ε = 88.9. The copper ion content shows a good linear relationship within the range of 12-24mg/50mL. The linear regression equation is A = 0.0354 + 0.02317c, and the linear correlation coefficient R = 0.9995. The determination of high-content copper in copper gold powder by EDTA spectrophotometry yields satisfactory results and has prospects for development and application, especially suitable for laboratories of medium and small enterprises with relatively simple equipment.

Storage method

Copper gold powder and its products should be stored at room temperature and in a dry environment; unused copper gold powder should be immediately sealed. Otherwise, copper gold powder will deteriorate due to oxidation if exposed to air for a long time.